Introduction Global Positioning System Prof. D. Nagesh Kumar Dept. of Civil Engg., IISc, Bangalore 560 012, India URL: http://www.civil.iisc.ernet.in/~nagesh GPS is funded and controlled by U. S. Department of Defense (DOD). GPS provides specially coded satellite signals that can be processed in a GPS receiver. Four GPS satellite signals - to compute positions in three dimensions and the time offset in the receiver clock. GPS - Intro Space segment Control segment User segment Space Segment GPS satellites - Space vehicles (SVs) send radio signals from space Nominal GPS Operational Constellation consists of 24 satellites that orbit the earth in 12 hours 6 orbital planes (4 SVs in each), equally spaced (60 o apart), and inclined at about 55 o to equatorial plane Space Segment - Contd.. GPS - Intro This constellation provides the user with between five and eight SVs visible from any point on the earth
GPS Nominal Constellation Satellite Orbits Simplified Representation Control Segment Control Segment The Master Control facility is located at Schriever Air Force Base (formerly Falcon AFB) in Colorado, USA Monitor stations measure signals from the SVs which are incorporated into orbital models for each satellite Control Segment - Contd.. Models compute precise orbital data (ephemeris) and SV clock corrections for each satellite Master Control station uploads precise ephemeris and clock data to the SVs SVs then send subsets of the orbital ephemeris data to GPS receivers over radio signals
Control Segment User Segment User Segment GPS receivers and the user community GPS receivers convert SV signals into position, velocity and time estimates Four satellites are required to compute the four dimensions of X, Y, Z (position) and Time Used for Navigation, Positioning, Time Dissemination. User Segment - Contd.. Navigation receivers are made for aircraft, ships, ground vehicles and for hand carrying by individuals Precise positioning at reference locations for Surveying, geodetic control, and plate tectonic studies... User Segment - Contd.. Time and frequency dissemination (Based on Precise clocks): Astronomical Observatories, Telecommunications Facilities and Laboratory Standards can be set to Precise Time Signals GPS Positioning Services Precise Positioning Service (PPS) Standard Positioning Service (SPS)
Precise Positioning Service Authorized users with cryptographic equipment and keys and specially equipped receivers PPS Predictable Accuracy 22 meter Horizontal accuracy 27.7 meter vertical accuracy 200 nanosecond time (UTC) accuracy Standard Positioning Service Civil users worldwide use the SPS without charge or restrictions SPS Predictable Accuracy 100 meter horizontal accuracy 156 meter vertical accuracy 340 nanoseconds time accuracy GPS is made Public Tuesday May 2 2000 3:53 AM ET Clinton Acts to Make GPS Systems More Accurate By Steve Holland WASHINGTON (Reuters) - President Clinton on Monday gave the go-ahead to let boaters, motorists and hikers use a satellite-navigation system with the same pinpoint accuracy that the military has long enjoyed. Clinton ordered the U.S. military to stop scrambling satellite signals used by civilians as of midnight GMT (8 p.m. EDT) on Monday night. The decision should mean that Global Position System receivers will be ten times more accurate. GPS Satellite Signals SVs transmit two microwave carrier signals L1 frequency (1575.42 MHz) - Carries the navigation message and the SPS code signals L2 frequency (1227.60 MHz) is used to measure the ionospheric delay by PPS equipped receivers GPS Satellite Signals Pseudo-Range Navigation The position of the receiver is where the pseudo-ranges from a set of SVs intersect Position is determined from multiple pseudo-range measurements Position dimensions are computed by the receiver in Earth-Centered, Earth- Fixed X, Y, Z (ECEF XYZ) coordinates
Earth-Centered, Earth-Fixed X, Y, Z Lat, Lon & Height from X,Y,Z X,Y,Z from Lat, Lon & Height Velocity and Time Velocity is computed from change in position over time, the SV Doppler frequencies, or both Time is computed in SV Time, GPS Time and UTC SV Time is the time maintained by each satellite (Each SV contains four atomic clocks) Velocity and Time - Contd.. GPS Time is a "paper clock" ensemble of the Master Control Clock and the SV clocks Time in Universal Coordinated Time (UTC) is computed from GPS Time using the UTC correction parameters sent as part of the navigation data bits Carrier Phase Tracking (Surveying) A line of sight along the ground is no longer necessary for precise positioning Positions can be measured up to 30 km from reference point without intermediate points Carrier phase is tracked at both receivers and the changes in tracked phase are recorded over time in both receivers.
Carrier Phase Tracking Differential GPS (DGPS) GPS Error Sources Handheld GPS Garmin EMap ($200) & ETrex Garmin12 & GPS 12XL
GPS 300 & GPS 312 GPS 320 & GPS II Plus